New discoveries on evolution can save endangered species
Traditionally, the evolutionary development of an insect species has been explained by the notion that the female insect chooses her male partner based on size and other factors, so-called assortative mating. These mating patterns have also been believed to partially explain how the isolation between different species is maintained.
|Male and female of the beautiful demoiselle (Calopteryx virgo) in the so-called "mating wheel." Note the male's |
dark blue wings, while the female is brown [Credit: E. Svensson/Lund University]
The researchers have studied the morphological variation of two closely related species of damselflies -- the smaller banded demoiselle and the larger beautiful demoiselle. The researchers have studied how this variation in appearance, shape and size affect the likelihood that damselflies mate, both within and between the two species.
The results show that large females mate with large males within their own species, but also that some males of the smaller banded demoiselle species choose to mate with females of the larger beautiful demoiselle species. Several additional experiments show that the power of attraction between different species mainly works in this direction, and not the other way around; that is, males of the larger species are not attracted to the females of the smaller species.
|Male of the smaller species banded demoiselle (Calopteryx splendens). The blue wing spots occur only in the males|
of this species, while the females do not have them [Credit: E. Svensson/Lund University]
"Mating patterns based on the size and quality of individuals partially counteract the sexual barrier between these two species. Our results also show that the sexual selection, when males compete for females, does not necessarily maintain the isolation between species; rather, it weakens it," says Erik Svensson.
When closely related species meet, males competing for females can in some cases lead to species becoming extinct, if the males of the smaller species are attracted to females of the larger species. The research results from Lund University can become important to nature conservation and species preservation around the world.
"So far this is basic research, but in 10-20 years' time, nature conservationists will perhaps start to consider these aspects when trying to reintroduce or preserve endangered species," says Erik Svensson.
The researchers have studied hundreds of individual insects in their natural populations around southern Sweden. The study has included the morphological properties that reflect their size and shape, as well as their mating behaviour.
The results are published in an article in the July issue of the scientific journal Evolution.
Source: Lund University [June 23, 2016]